Wireless communication system and method for sending a notification of proximity of a first wireless communications device to a second wireless communication device

ABSTRACT

Disclosed is a wireless communication system that is used with a wireless communication device and a position location system, the wireless communication device being capable of communicating with the position location system. The wireless communication system includes a memory device for storing position locations of the wireless communication device and for storing transactions made relating to the wireless communication device, a processor for determining trends by recalling stored information from the memory device and processing the recalled information, and a transmitter for transmitting targeted broadcasts to the wireless communication device based on the current location of the communication device.

RELATED APPLICATIONS

This patent application is a divisional of U.S. patent application Ser. No. 10/020,094 filed Dec. 13, 2001, entitled System and Method for Wireless Telecommunications Network, incorporated herein by reference, which claims the benefit of U.S. Provisional Patent Application Ser. No. 60/255,331 filed on Dec. 13, 2000, entitled System and Method for Wireless Telecommunications Network, incorporated herein by reference.

BACKGROUND OF THE INVENTION

1. Field of the Invention

The present invention relates to a wireless telecommunications network. More particularly, the present invention relates to a wireless telecommunications network wherein information relating to a communication device is stored and processed.

2. Brief Description of the Related Art

Typical wireless networks allow for two way telecommunications between multiple users utilizing communication devices, such as handsets or PDAs communicating with at least one base station. Advances in wireless telecommunications will soon provide a user location feature by locating a wireless communication device, for example, during an emergency. Such a feature typically utilizes a Global Positioning Satellite (GPS) system which has the capability of tracking the movements of each specific wireless communication device, such as a cellular telephone handset or PDA and its user. As GPS technology improves, the specific location of the cellular telephone handset and its user will be accurate within a few feet, or even less.

SUMMARY OF THE INVENTION

A first aspect of the invention is related to a telecommunications network that includes a communication device, a tracking system for tracking the communication device, and a processing device that processes information received directly or indirectly from the tracking system.

Another aspect of the invention is related to a wireless telecommunications system that includes a wireless communication device being capable of communicating with an existing position location system, and a system for storing and processing location positions of the wireless communication device. In another embodiment of this aspect of the invention, the system for storing location positions includes at least one database. In yet another embodiment of this aspect of the invention, the system stores and processes additional information relating to the wireless communication device, such as transactions made with or relating to the wireless the communication device.

Yet another aspect of the invention is related to a wireless telecommunications system includes a wireless communication device including a location position feature, the wireless communication device is capable of communicating with an existing position location system, and a system for storing and processing location positions of the wireless communication device.

Another aspect of the invention is related to a wireless telecommunications system that includes a wireless communication device being capable of communicating with an existing position location system, a memory device for storing position locations of the wireless communication device, and a processor for processing information from the memory device.

Yet another aspect of the invention is related to a wireless telecommunications system capable of communicating with an existing wireless communication device that is capable of communicating with an existing position location system. The system includes a memory device for storing location positions of the wireless communication device, and a processing system for processing information from the memory device and relating to the stored location positions of the wireless communication device.

Another aspect of the invention relates to a system that is used with an existing wireless communication device that is capable of communicating with an existing position location system, the system includes a memory device for storing position locations of the wireless communication device and a processor for processing information from the memory device.

Yet another aspect of the invention relates to a system that is used with at least one wireless communication device that is capable of communicating with a position location system, the system includes a memory device for storing position locations of the wireless communication device and a processor for determining trends from the position locations stored in the memory device.

Another aspect of the invention relates to a system that is used with a wireless communication device that is capable of communicating with a position location system, the system includes a memory device for storing transactions made relating to the wireless communication device and a processor for determining trends from the transactions stored in the memory device.

Yet another aspect of the invention relates to a system that is used with a wireless communication device and a position location system, the wireless communication device being capable of communicating with the position location system. The system includes a memory device for storing position locations of the wireless communication device and for storing transactions made relating to the wireless communication device and a processor for determining trends by recalling stored information from the memory device and processing the recalled information.

Another aspect of the invention relates to a wireless communication system that is used with a wireless communication device and a position location system, the wireless communication device being capable of communicating with the position location system. The wireless communication system includes a memory device for storing position locations of the wireless communication device and for storing transactions made relating to the wireless communication device, a processor for determining trends by recalling stored information from the memory device and processing the recalled information, and a transmitter for transmitting targeted broadcasts to the wireless communication device based on the current location of the communication device.

Still yet another aspect of the invention relates to a wireless communication system that is used with a wireless communication device and a position location system, the wireless communication device being capable of communicating with the position location system. The wireless communication system includes a memory device for storing position locations of the wireless communication device and for storing transactions made relating to the wireless communication device, a processor for determining trends by recalling stored information from the memory device and processing the recalled information, and a transmitter for transmitting targeted broadcasts to the wireless communication device based on the trends of the communication device.

BRIEF DESCRIPTION OF THE DRAWINGS

The invention will now be described in greater detail with reference to the preferred embodiments illustrated in the accompanying drawings, in which like elements bear like reference numerals, and wherein:

FIG. 1 illustrates a schematic representation illustrating an exemplary wireless telecommunications network according to the present invention;

FIG. 2 is a block diagram illustrating an example of a computer system used to implement the present invention;

FIG. 3 is a block diagram illustrating an example of a system configuration used to implement the present invention;

FIG. 4 is a flow chart illustrating a communication device user preselection process according to an embodiment of the present invention;

FIG. 5 is a flow chart illustrating the a communication device user usage pattern as tracked according to an embodiment of the present invention; and

FIG. 6 is a flow chart illustrating the tracking and usage analysis of the communication device as well as the resulting targeted broadcasting to the communication device according to an embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

FIG. 1 illustrates an exemplary GPS system with a wireless device, such as a cellular wireless handset or PDA device 10 in communication with a GPS system 12, wherein the system 12 typically includes a plurality of satellites 14, 16 and 18, and a ground station 20 with a transmitter and receiver 22. The satellites communicate with the handset 10 and with each other to determine the location of the device 10 and the user. The terms communication device and user may be used interchangeably herein. It will be understood by those skilled in the art that any type of GPS system would work with the present invention. In addition, the GPS system 12 has the capability to identify the communication device 10 by various methods, such as coding the communications from a particular handset to the GPS system.

The GPS system 12 locates and identifies a particular user. The GPS ground station may include a computer system, or the computer system may be independent of the ground station. For example, the computer system may be housed in a separate satellite, a separate ground based system, or may be embedded in at least one of the satellites, as long as the computer system is in communication with the GPS system via a communication interface.

The components in the telecommunication system may interface utilizing a cellular based system, digital cellular system, GSM (Global System for Mobile communications), PCS (Personal Communication Services), PDC (Personal Digital Cellular), radio communications, satellite communications, or other related systems. Also, the Wireless Application Protocol (WAP) may be utilized as well as the Bluetooth Wireless' Technology Standard, or other short wireless standards may be utilized in the present invention.

The computer system, as shown in FIG. 2, may include a display 24, a keyboard 26, input device 28, central processing unit(s) 30, 1/0 controller 32, disk controller 34, hard drive 36, floppy drive 38, optical drive 40, and a storage device 42. The storage device can be configured as memory or another processor readable medium. Each of the devices communicates over bus 44. The computer is not limited to these generally devices or software since the computer will include other computer devices and/or software based upon the system configuration.

In one example, the computer interfaces with the communication interface via a modem 46, a network card 48 or some other communication mechanism, such as cellular or satellite communications.

FIG. 3 is an example of the system configuration of the server system used to implement the present invention. The server system includes an operating system 50, application software 52, a web server (http server) 54, and a database system 56. The database system 56 may include several databases or files, including preselections, usage, transactions, frequent or frequented routes, responses to broadcasts, or requests for information, or other historical demographics.

As shown in FIG. 4, the user of the communication device makes preselections 58 from a menu. These preselections initially establish a baseline demographic for this particular user of the communication device. At step 60 the user selects a topic to make the preselections, such as food, entertainment, shopping, social, or other interested categories available on the menu. The user may utilize a menu on the communication device itself or the selection process may be Web based. At step 62, the user sets particular profiles of interest in the selected category, such as notify the user by broadcasting to the communication device if a certain event happens. The event may be that the user is in the proximity of a store, restaurant, person, event, or other item selected by the user. At step 64, the user may set certain demographics, such as notify the user if the user is in the proximity of a store, such as within five miles, or within a certain zip code, or city, or some other geographical limitation. At step 66 the user saves the preselections. At step 68 the preselections are stored in memory either in the communication device, or preferably, in the computer system of the telecommunication network.

FIG. 5 illustrates how the user's actions, or inactions are stored in memory to compile, maintain, and update the historical demographics and database relating to the user. At step 70, the user is notified based on preselections made. The user's actions or inactions are stored at step 80 based upon the notification of the preselected event. Other actions or inactions include step 72, where the user requests information based on interests not preselected or based on the user's location. At step 74 the user travels frequent or frequented routes and these actions are stored into memory. At step 76, the user responds to broadcasts from the telecommunication system and the user's actions are stored into memory. At step 78, the user acts independently, such as making a visiting or making a purchase at a store. Purchases by the user are stored when the user utilizes the communication device to make the purchase. Bluetooth technology or other short, distance wireless communication standards allow the communication device to make purchases.

In one embodiment of the present invention, a user of a device logs onto the computer system via the device, a land based telephone, a computer, or other communication means via the Internet, land based telephone lines, or other communication devices. The term device and handset are also used interchangeably herein. The user identifies himself or herself by the logging on process and then communicates with the computer system by inputting certain information into computer screens. It will appreciated that parents will have certain controls available to them to either preselect what their children will have access to at a subsequent log on or will be able to prevent their children to have access to certain material. After the user logs on to the system, the user will be able to determine what communications he or she will receive. For example, the user may select to receive advertisements from certain stores and/restaurants, or select from other categories of interest such as concerts, grocery stores, department stores, specialty stores libraries, parks etcetera so that when the handset is within a certain distance or range from the area of interest, an advertisement or message from the area of interest will be broadcast on the handset, either by voice, ring, or message on the handset screen.

The user also may select that he wishes to receive a message when he is in a certain distance of another person or persons who have the same selected interest. For example, a male looking for a female, who is looking for a male. These examples are not exhaustive of the potential lists of matches that could be preselected on the computer system and then executed when the users are in different environments. Of course, for the communication to be executed by the computer system, all participants must have preselected to receive such communications. For example, in the case people looking for other people, both must have preselected that they were willing to communicate with people of their respective categories. In another embodiment, certain users may not preselect whom they will receive communications from. For example, for users who desire to have a free wireless service, the trade off may be that they cannot screen or preselect who they will receive communications or broadcasts from.

After the user preselects the areas of interest, the user then establishes a pattern of usage by receiving messages, responding to the messages by either ignoring them or acting upon them, and such usage, responses and lack thereof are recorded by the computer system in the database for each particular user. The device uploads data to the computer system by a variety of methods. For example, the GPS system monitors the whereabouts of the user and determines if the user has responded to an advertisement by going to one of the places that was preselected and an advertisement was sent. In the alternative, the advertisement may send a teaser advertisement to the user wherein the user must respond to obtain the full advertisement, such as a percentage off or to obtain the address of the advertiser and may poll the user whether the user actually went to the advertiser's location. Another alternative is for the advertisers to have short wave communication systems in place, such as a BLUETOOTH enabled system, so that when the user enters the advertiser's place of a business, the device communicates with the BLUETOOTH enabled system and the database is then updated of the user's actions. It will be recognized that utilizing this technology, a user does not have to preselect a certain establishment, but may be included in a demographic group by just visiting an establishment. This method allows the demographic group to include registered as well as nonregistered users. Also, purchases made with a handset or via a handset may be tracked.

After the database is updated regarding the user's responses to certain advertisements, a demographic profile of the user or a particular handset is developed in the computer system 20 utilizing the data in database. Of course, such a demographic profile is very valuable and could be sold to various merchants or advertisers who the user would be a likely customer of. Also, based on the user's or handset's profile, the advertisements may be altered to provide a higher success rate of execution or follow through on the advertisement. For example, if a user has positively responded to certain advertisements in the past to an establishment, subsequent advertisements may include further discounts, such as a frequent user discount that is displayed on the user's screen or a frequent user discount that is left in the user's voicemail box with a code that may be used for redemption. The advertisements or redemptions may be proportionate to the need of a user's inventory or business cycle.

For example, if a particular restaurant is slow on Wednesdays, advertisements may be broadcast to a select group of users or handsets based on the demographic profiles for special pricing on Wednesdays. Another advantage of the present invention is that custom advertisements for certain groups of users that have been compiled may be quickly broadcast based on business conditions. For example, using the restaurant case study again, if a restaurant is having a slow night that might not typically be a slow night, a broadcast could be sent to a certain group of frequent users/diners. Another example could include if the restaurant has an oversupply of food that needs to be sold versus being discarded. The system disclosed may also be utilized by broadcasting specials and asking for a response to make reservations or to make a purchase. It will be appreciated that the restaurant example is exemplary only and is not intended to be a limitation; the disclosed method and system can be utilized in endless situations. It will also be appreciated that the customized broadcasts may be either proportional or reversely proportional based on the user's history. For example, an establishment may reward frequent usage by providing more frequent or greater discounts for frequent purchasers. In the alternative, more frequent or greater discounts may be provided to first timers to get them into the establishments with the discounts becoming less frequent or for lesser amounts once more frequent usage is established. Of course the broadcast discounts may be increased if usage is determined to be diminished. An advantage of the present invention is that each user may be tracked and broadcasts sent to the user's handset based on the user's responses to past broadcasts and subsequent behavior.

The disclosed first embodiment includes any analysis or manipulation of the user's history to customize certain broadcasts to the user or handset. It will be appreciated by those skilled in the art that the user's history may be analyzed in several ways. To list just a few, the user's history may be-analyzed based on geographic history, chronological history, user family history in the case of multiple users for a handset, seasonal history, usage patterns either in serial or parallel, et cetera.

FIG. 6 illustrates a flow chart according to an embodiment of the present invention. At step 82 a baseline is established for a user or handset based on preselections 84 made by the user making selections regarding broadcasts that he is interested in receiving or by starting with usage 86, if any, of the handset which is tracked. In step 88 broadcasts are sent to the handset based on selections made or based on a set of defaults or based on usage at step, if any. The usage of handset is subsequently tracked in step 90, usage meaning locations of the handset, purchases made with the handset, and communications made with the handset, as well as other methods to track usage. The database is updated in step 92 based on the usage of the handset. In step 94 information in the databases is analyzed or filtered. In step 96 a historical demographic is established based on the usage of the handset. In step 98 the demographic is analyzed to recognize patterns in said usage, whether the patterns are in responses to broadcasts sent to the handset or not, in step 100 user groups are established based on the demographics analyzed. This allows broadcasts to be sent to specific user groups. In step 102 broadcasts are sent to users based on the demographics established and analyzed. The process then continues by looping back to step 90 with the usage being tracked. This method establishes a very accurate demographic profile as a function of time and the tracking of usage. This method allows the demographic profile to be modified as the user's tastes and preferences change.

Other features of the present invention include the demographic profile being stored on a computer so that as the user changes handsets due to upgrades, breakage, or loss, the profile may be easily switched to another handset by simply logging onto to the computer system or by the handset or network's customer service personnel.

Another example is the present invention could be used to create a dynamic marketplace for placing orders for advertisements, that are based on availability. For example, if an establishment has an oversupply, broadcasts could be placed to a user or a user group and a purchase could be made with the device and an account could be charged. Therefore, based on availability, prices for advertisements and goods would fluctuate in real time. Goods could also be auctioned. Also, frequent advertisers and purchasers could be rewarded with discounts.

While the invention is being described in detail with reference to the preferred embodiments thereof it will be apparent to one skilled in the art that various changes and modifications can be made and equivalents employed, without departing from the present invention. 

1. A method of operating a wireless communication system used with wireless communication devices and a position location system locating respective positions of the wireless communication devices, the wireless communication system communicating with the position location system, said method comprising: storing, in a memory, a database of user selections and user demographics, wherein the user selections are used to set the stored user demographics, wherein the stored user demographics indicate that a second one of the wireless communication devices is to receive a notification that a first one of the wireless communication devices is in proximity to a particular location; receiving position location data from the position location system as the wireless communication devices move, the position location data indicating the respective positions of the wireless communication devices; processing, by one or more processors, the position location data to determine when the position location data indicates that the first one of the wireless communication devices is in proximity to the particular location and the stored user demographics indicate that the second one of the wireless communication devices is to receive the notification that the first one of the wireless communication devices is in proximity to the particular location; sending the notification of proximity of the first one of the wireless communication devices to the particular location to the second one of the wireless communication devices in response to the processing of the position location data determining that the position location data indicates that the first one of the wireless communication devices is in proximity to the particular location and the stored user demographics indicate that the second one of the wireless communication devices is to receive the notification of proximity of the first one of the wireless communication devices to the particular location; tracking usage, based upon the notification, of the second one of the wireless communication devices; storing the usage; updating the stored user demographics and the stored database based on the usage; providing free wireless service to a first group of users having selections indicating an interest in not screening notifications; and not providing free wireless service to a second group of users having selections indicating an interest in screening notifications, wherein the wireless communication devices are mobile cellular devices, wherein the wireless communication devices are in communication with a Global Positioning System (GPS), wherein transactions made relating to the wireless communication devices are stored, wherein position locations of the wireless communication devices are stored, wherein the one or more processors are configured to process the stored transactions to determine first trends, and wherein the one or more processors are configured to process the stored position locations to determine second trends.
 2. The method of claim 1, wherein the particular location is the position of the second one of the wireless communication devices as located by the position location system.
 3. The method of claim 1, wherein the first one or the second one of the wireless communication devices is a cell phone.
 4. The method of claim 1, wherein updated stored user demographics affect a future notification received by the second one of the wireless communication devices.
 5. The method of claim 1, wherein the particular location comprises a store or restaurant.
 6. The method of claim 1, wherein the user demographics indicate that a second one of the wireless communication devices is to receive a notification that a first one of the wireless communication devices is in a particular zip code.
 7. The method of claim 1, wherein the usage comprises responses and nonresponses to the notification.
 8. The method of claim 1, wherein the mobile cellular devices are cell phones.
 9. A method of operating a wireless communication system used with wireless communication devices and a position location system locating respective positions of the wireless communication devices, the wireless communication system communicating with the position location system, said method comprising: receiving position location data from the position location system as the wireless communication devices move, the position location data indicating the respective positions of the wireless communication devices; processing, by one or more processors, the position location data to determine when the position location data indicates that two of the wireless communication devices are in proximity to each other; sending notifications to each of the two wireless communication devices in response to the processing of the position location data determining that the position location data indicates that the two wireless communication devices are in proximity to each other, wherein user demographics of the two wireless communication devices stored in a database indicate that each of the two wireless communication devices is to receive notification that the two wireless communication devices are in proximity to each other, wherein the stored user demographics are set by user selections stored in the database; tracking usage, based upon the notifications, of the two of the wireless communication devices; storing the usage; updating the stored user demographics and the database based on the usage; providing free wireless service to a first group of users having selections indicating an interest in not screening notifications; and not providing the free wireless service to a second group of users having selections indicating an interest in screening notifications, wherein the wireless communication devices are mobile cellular devices, wherein the wireless communication devices are in communication with a Global Positioning System (GPS), wherein transactions made relating to the wireless communication devices are stored, wherein position locations of the wireless communication devices are stored, wherein the one or more processors are configured to process the stored transactions to determine first trends, and wherein the one or more processors are configured to process the stored position locations to determine second trends.
 10. The method of claim 9, wherein the mobile cellular devices are cell phones.
 11. The method of claim 9, comprising: storing, in a memory, the database of user selections used to set the user demographics; accessing the database of user selections to determine whether the database of stored user selections includes selections of each user of each of the two wireless communication devices indicating that each user of each of the two wireless communication devices is to be notified when the processing of the position location data determines that the two wireless communication devices are in proximity to each other; and sending the notifications to each of the two wireless communication devices only when the database of user selections includes selections of each user of each of the two wireless communication devices indicating that each user of each of the two wireless communication devices is to be notified when the processing of the position location data determines that the two wireless communication devices are in proximity to each other.
 12. A wireless communication system for use with wireless communication devices and a position location system providing position location data indicating respective positions of the wireless communication devices, said wireless communication system comprising: one or more processors configured to receive the position location data from the position location system as the wireless communication devices move, process the position location data to determine when the position location data indicates that two of the wireless communication devices are in proximity to each other, and track usage, based upon a notification, of the two of the wireless communications devices; and a transmitter configured to transmit the notification to each of the two wireless communication devices in response to the processing of the position location data determining that the two wireless communication devices are in proximity to each other, wherein user demographics of the two wireless communication devices stored in a database indicate that each of the two wireless communication devices is to receive the notification, wherein the notification indicates that the two wireless communication devices are in proximity to each other, wherein the stored user demographics are set by the user selections stored in the database; and a memory in which is stored the usage and updated user demographics based on the usage, wherein free wireless service is provided to a first group of users having selections indicating an interest in not screening notifications, wherein the free wireless service is not provided to a second group of users having selections indicating an interest in screening notifications, wherein the wireless communication devices are mobile cellular devices, wherein the wireless communication devices are in communication with a Global Positioning System (GPS), wherein transactions made relating to the wireless communication devices are stored, wherein position locations of the wireless communication devices are stored, wherein the one or more processors are configured to process the stored transactions to determine first trends, and wherein the one or more processors are configured to process the stored position locations to determine second trends.
 13. The wireless communication system of claim 12, wherein the mobile cellular devices are cell phones.
 14. The wireless communication system of claim 12, wherein the memory stores the database of user selections to set the user demographics, wherein the one or more processors are coupled to the memory and are configured to access the database of stored user selections to determine whether the database of user selections includes selections of each user of each of the two wireless communication devices indicating that each user of each of the two wireless communication devices is to be notified when the processing of the position location data determines that the two wireless communication devices are in proximity to each other, and wherein the transmitter transmits the notifications to each of the two wireless communication devices only when the database of user selections includes selections of each user of each of the two wireless communication devices indicating that each user of each of the two wireless communication devices is to be notified when the processing of the position location data determines that the two wireless communication devices are in proximity to each other.
 15. A method of operating a wireless communication system used with wireless communication devices and a position location system locating respective positions of the wireless communication devices, the wireless communication system communicating with the position location system, said method comprising: storing, in a memory, a database of user selections and user demographics, wherein the user selections are used to set the stored user demographics, wherein the user demographics associated with the wireless communication devices and stored in the database indicate that each of two of the wireless communication devices is to receive a notification that the two wireless communication devices are in proximity to each other; receiving position location data from the position location system as the wireless communication devices move, the position location data indicating the respective positions of the wireless communication devices; processing, by one or more processors, the position location data to determine when the position location data indicates that the two of the wireless communication devices are in proximity to each other and the stored user demographics indicate that each user of each of the two of the wireless communication devices is to be notified that the two of the wireless communication devices are in proximity to each other; sending notifications to each of the two of the wireless communication devices in response to the processing of the position location data determining that the two of the wireless communication devices are in proximity to each other and the stored user demographics indicate that each user of each of the two of the wireless communication devices is to be notified that the two of the wireless communication devices are in proximity to each other; tracking usage, based upon the notification, of the two of the wireless communications devices; storing the usage; updating the user demographics and the database based on the usage; providing free wireless service to a first group of users having selections indicating an interest in not screening notifications; and not providing the free wireless service to a second group of users having selections indicating an interest in screening notifications, wherein the wireless communication devices are mobile cellular devices, wherein the wireless communication devices are in communication with a Global Positioning System (GPS), wherein transactions made relating to the wireless communication devices are stored, wherein position locations of the wireless communication devices are stored, wherein the one or more processors are configured to process the stored transactions to determine first trends, and wherein the one or more processors are configured to process the stored position locations to determine second trends.
 16. The method of claim 15, wherein the mobile cellular devices are cell phones.
 17. The method of claim 15, wherein the mobile cellular devices are cell phones.
 18. A wireless communication system for use with wireless communication devices and a position location system providing position location data indicating respective positions of the wireless communication devices, said wireless communication system comprising: a processor configured to receive the position location data from the position location system as the wireless communication devices move, process the position location data to determine when the position location data indicates that two of the wireless communication devices are in proximity to each other and stored user demographics based on a database of stored user selections indicate that users of each of the two of the wireless communication devices are to be notified when the two of the wireless communication devices are in proximity to each other, track usage, based upon the notification, of the two of the wireless communications devices, store the usage, and update the database and the stored user demographics associated with the two of the wireless communication devices based on the usage; and a transmitter configured to transmit notifications to each of the two wireless communication devices in response to the processing of the position location data determining that the two wireless communication devices are in proximity to each other and the stored user demographics based on the stored database of user selections indicate that the users of each of the two of the wireless communication devices are to be notified when the two of the wireless communication devices are in proximity to each other, wherein free wireless service is provided to a first group of users having selections indicating an interest in not screening notifications, wherein the free wireless service is not provided to a second group of users having selections indicating an interest in screening notifications, wherein the wireless communication devices are mobile cellular devices, wherein the wireless communication devices are in communication with a Global Positioning System (GPS), wherein transactions made relating to the wireless communication devices are stored, wherein position locations of the wireless communication devices are stored, wherein the one or more processors are configured to process the stored transactions to determine first trends, and wherein the one or more processors are configured to process the stored position locations to determine second trends.
 19. The wireless communication system of claim 18, wherein the mobile cellular devices are cell phones. 